DE2453887A1 - METHOD OF MAKING A COPY FROM AN ORIGINAL IMAGE - Google Patents

Description

DR. ING. E. HOFFMANN -LVIPL-IiSrG-W-EITIE · DR. RER. NAT. K. HOFFMANN PATENT LAWYERS D-8000 MÖNCHEN 81ARABELLASTRASSE 4 TELEPHONE (0811) 911087

26 112

XEROX Corporation, Rochester, N.Y. / UNITED STATES

Method of making a copy from an original image

The invention relates to a method for making a copy of an original image and in particular the production of a copy using the thermographic process. "

Many thermographic processes use a thermal image onto a thermosensitive element or sheet into an imaging station applied, after which the image is developed with toner particles. Either the toner particles are on the , heat sensitive material melted or they become on

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a copy medium transfixed (transferred and melted) from the heat-sensitive material, this being done in a melting or transfer station downstream of the development station. For the heat mapping function and melting or transfer function, separate heat sources are required. On some systems for the mapping function as well as melting or transfer function the same heat source is used in separate stations.

For processes in which two separate heat sources are provided, one downstream of the other, must separate control and transport mechanisms are provided and furthermore a synchronization is necessary so that the functions can be carried out cleanly at each station. This means that there is a double number of parts and therefore the system becomes complicated ".

If the same heat source is provided for both stations, the functions to be performed are usually the same Lamp intensity. Otherwise, the machine would have to be enlarged considerably in order to achieve a different intensity for the To be able to melt or transfix after imaging.

The invention is therefore based on the goal of creating a copying method of the type mentioned, which deals with a inexpensive, simple and compact copier using a cut sheet of heat sensitive Material can be carried out.

According to the invention this goal is achieved in that one Sheet with an original illustration and a heat sensitive one

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Insert sheet into a machine and sandwich the two sheets On top of each other stratification through a radiation path from a radiation source sends / so that a thermal image is generated on the heat-sensitive sheet, separates the sheet with the original image from the heat-sensitive sheet, wherein the thermosensitive sheet is moved in one direction through a development station and the one thereon Image is developed, the direction of movement of the thermosensitive sheet is reversed, with its trailing edge during the movement in one direction the leading edge becomes the heat sensitive while moving in the opposite direction Sheet back through the same radiation path from the same beam * treatment source leads to the heating of the developed image, the heat-sensitive sheet in the radiation path on the same Place that it was during the imaging

Has left the process and releases the heat-sensitive sheet from the machine.

In other words, there will be a sheet of paper with the one to be copied Figure brought into contact with a heat-sensitive, cut sheet, making a sandwich-like layered one Structure is present. This structure is fed into the copier machine where it passes a thermal imaging station, in which creates a thermal image on the heat-sensitive sheet. Thereafter, the original sheet or member is removed from the heat sensitive Sheet separated and run out of the copier. The heat sensitive sheet continues to move to a development station in which the image thereon are developed by toner particles. This development takes place once the thermosensitive sheet passes through the development station and then into a storage slot. After development the picture becomes the movement path of the heat-sensitive sheet vice versa so that it goes back through the development station to the thermal imaging station with the former trailing edge

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of the sheet is now its leading edge. A copy sheet is developed with the image on the heat sensitive Sheet brought into contact and the two sheets are fed through the imaging station in a sandwich-like structure, wherein in the station the sheets are exposed to heat and thus a transfer and fixation of the developed image or the toner particles are deposited on the copy sheet. Thereafter, the sandwich structure is made of the copy sheet and the heat-sensitive sheet dispensed from the copier with the operator separating the sheets to obtain a copy. Instead of transferring the toner particles to a copy medium, the toner particles can also be transferred to the heat-sensitive sheet be fixed by yourself.

One advantage of the invention is therefore that the same lamp and station are used for both imaging and melting or transfixing is used.

An exemplary embodiment of the invention is described in more detail below with reference to the drawing. Show it:

Fig. 1 is a schematic view of a copier showing the imaging and development process,

Fig. 2 is a partial view of the copier of Fig. 1 showing the location of a heat sensitive Sheet after the development of the illustration on it, and

Fig. 3 is a view of the apparatus of Fig. 1 during the process of transferring the developed image.

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As shown in the drawing, a copier 1o a guide slot 12 for receiving a sandwich stacked configuration consisting of a heat-sensitive Sheet 14 and an original sheet 16 with a Figure on it. The heat-sensitive sheet 14 is made of a support material with a heat-sensitive Coating is covered. For example, the carrier material can be an organic film, such as a polyester film, Cellulose acetate or triacetate film, be the one with a delay adhesive adhesive is coated. The adhesive is usually hard and non-sticky at room temperature, but remains it, after being converted into a sticky state by heat activation and then cooled to room temperature a sufficient time, ranging from at least 30 seconds to a few days, depending on the particular composition may vary, sticky. Such delayed adhesive coatings are known and can be a mixture of discrete resin particles, such as indene resin or esterified resin, and discrete particles of a crystalline plasticizer such as for example diphenyl phthalate or N-cyclohexyl paratoluene sulfonamide, exist. The particles are interconnected in the carrier film by a binder such as a styrene-butadiene copolymer tied together. Basically it can be said that the crystalline plasticizer component of the mixture is the resin component surpasses.

On the frame of the machine is a cylinder 18 with a highly flexible Surface rotatably mounted, with a transparent belt 2o rotates around three guide rollers 22, 24, 28 and around a drive roller 26. The cylinder 18 and the capstan 26 are driven by a reversible motor, not shown. The roles 24 and 26 are like this arranged that the belt 2o pressed against the cylinder 18 so that nips 25 and 27 are formed.

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In the slot. 1-2 a microswitch (not shown) is arranged, which is electrically connected to the reversible motor for starting the same. The microswitch is further arranged so that it is actuated after the sheets have been inserted into the slot. When the cylinder 18 is rotated, the belt 2o is also rotated and pressed against the surface of the cylinder. Opposite the cylinder 18 is a radiation source, such as a Incandescent lamp 3o, which gives off radiant heat to the area of the cylinder 18 which is opposite the lamp. To the To turn the lamp on and off at an appropriate time, a delay mechanism is also provided. After inserting the original sheets 16 and the thermosensitive element 14 sandwiched in the slot 12 and when engaged with the gap 27, the sandwich structure is drawn along the lamp 3o. A slot 31 is also provided through which the original sheet 16 can emerge after separation from sheet 14. At the entrance of the slot 31, a sheet separator 33 is arranged, which during a sufficient Time to attract the original under vacuum so that the original is separated from the heat-sensitive sheet 14 will.

A conveyor mechanism consisting of a drive roller 34 and a guide pulley 36 extending belt 32, is arranged so that it can cooperate with a pulley 38, wherein between the roller 34 and the roller 38 a pressure nip is formed, the leading edge 39 of the heat-sensitive Grips sheet 14 and moves it along a guide element 4o to a development station. The development station consists of a housing 41 in which ferromagnetic toner particles 42 are located. The drive roller 34 is through the same Motor operating cylinder 18 is driven. A known magnetic brush 44 is mounted on the housing 41 so that an area the brush rotates in the toner bed 42 while another area

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the brush touches the heat-sensitive sheet 14 so that this Toner can be fed to the sheet for developing the image on it. The magnetic brush 44 is also with the reversible motor that drives the cylinder 18 and the capstan 34 drives, in connection. The toner particles 42 consist of thermoplastic particles coated with carbon black or other radiation-absorbing Dyes or pigments are colored and mixed with iron oxide particles.

A storage slot 5o is used to receive the front edge 39 of the thermosensitive sheet 14 after it has passed the development station. The guide roller 36 is so relative to Surface 51 of the slot 5o arranged that the belt 32 is in slight contact with the surface 51 to the heat-sensitive To grasp sheet 14 between surface and belt for movement. A microswitch 52 is located at the top End of the storage slot 5o and is electrically connected to the reversible motor, not shown, this motor also with the cylinder 18, the drive roller 34 and the magnetic brush 44 in Connection. The switch 52 can be through the leading edge 39 of the heat-sensitive sheet 14 can be operated. The order of the guide roller 36 is such that the trailing edge 53 of the thermosensitive sheet 14 is gripped by the belt 32 when the switch 52 is actuated by the leading edge 39 will. When the switch 52 is actuated, a reversal takes place of the motor, which in turn leads to a change in the direction of rotation of the drive roller 34, the magnetic brush 44 and the cylinder 18, so that in the reverse direction of movement the heat-sensitive sheet 14 from the storage slot 5o along the development station and along the guide element 4o up to the nip 27 and around the cylinder 18 along the lamp 3o out of the machine passes through the slot 12.

A stack of copy sheets 54 is arranged on a paper tray 56, wherein a feed roller 28 can grab the top sheet of the copy sheet stack 54 and this away from the stack, longitudinally

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a guide member 60 is moved to a pair of nip rollers 62. A torsion spring 61 tensions the paper trough 56 toward the feed roller 28, thereby bringing the stack of copy sheets into engagement with the feed roller. The microswitch 52 is also electric with a motor for driving the feed roller 58, with another motor for driving it the nip rollers 62 and connected to a motor for applying a vacuum to the separator 33. When the Microswitch 52 through the leading edge of the heat sensitive sheet 14 turns off the vacuum motor while the motor is running for the feed roller 28 starts to drive them. Furthermore, a delay mechanism, not shown, is used to start up of the squeegee rollers 62 is actuated to start the squeegee rollers 62 after the leading edge of a copy sheet 54 has come into engagement therewith and after the heat sensitive sheet 14 has reversed for a certain distance moved. A delay mechanism (not shown) is further provided to drive the motors for the feed roller 18 and turn off the squeegee rollers 62 at an appropriate time. Upon movement of the copy sheet 54 through the nip rollers 62, the copy sheet enters a slot 64 which defines the Sheet to the nip 27 leads. Such timing is provided here that the leading edge of the copy sheet 54 shortly before the nip 27 arrives at the same time as the former rear, but now front edge 53 of the heat-sensitive Sheet 14, so that the two sheets are aligned with one another and through the cylinder 18 between this and the Belt 2o are moved along lamp 3o and out of copier "through slot 12 in sandwiched layers. A The deceleration mechanism is set to turn off the reversing motor for cylinder 18 and capstan 36, so " soon the leaves 14 and 54 leave the slot 12.

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In operation, as shown in Fig. 1, a heat sensitive sheet 14 and an original sheet 16 with an thereon, to copying image placed on top of one another and inserted into the slot 12, so that after actuation of the switch in the slot 12 the cylinder 18, the belt 32 and the magnetic brush 44 move into begin to turn in the indicated direction. The sandwich-like structure of sheets 14 and 16 passes between the cylinders 18 and the belt 2o along the incandescent lamp 3o and is exposed to this lamp 3o. The intensity of the lamp and the speed, with which the sandwich structure is guided along the same, are such that there is sufficient heat to be on the heat-sensitive Element to create a sticky image similar to that on the original sheet 16. When the leading edge of the sandwich structure comes out of the area between the belt 20 and the cylinder 18, the original is removed from the heat-sensitive sheet 14 separated by the vacuum separator 33 and discharged from the copier through the slot 31. The heat sensitive Element or sheet 14 moves on to the development station, in which the magnetic brush 44 dusts toner particles 42 onto the sticky image. According to Fig. 2 comes the developed, heat-sensitive Sheet 14 in the storage slot 5o, with the leading edge 39 of the sheet with the microswitch 52 in engagement comes so that the direction of rotation of the belt 32, the magnetic brush 44 and the cylinder 18 is reversed and the paper feed roller 58 and the delay mechanism for the nip rollers 62 are acted upon. According to FIG. 3, after reversing the belt 32 the thermosensitive sheet 14 is moved out of the storage slot 5o with the formerly trailing edge 53 now the leading edge will. The sheet 14 passes through the development station, with the magnetic brush 44 feeding particles to the image, see above that this, if necessary, developed with additional toner particles will. At this point, the leading edge of the copy sheet 54 has moved toward the nip rollers 62, the retarding mechanism now the squeezing rollers 62 acted upon,

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so that the copy sheet 54 is peeled off and just before the nip 27 at the same time as the leading edge 52 of the heat-sensitive sheet 14 arrived. The two sheets enter the gap 27 between the cylinder 18 and the belt 2o in a sandwich-like structure and are exposed to the incandescent lamp 3o for a sufficient time so that the toner particles melt and transfer a substantial part of the particles from the heat-sensitive sheet to the copy sheet and onto the latter due to the slight pressure between the leaves caused by the pressure between the belt 2o and the Cylinder 18, is fixed. The sandwich structure then passes out of the copier through the slot 12, whereby the operating personnel captures the sandwich structure and separates the sheets, leaving a copy of the illustration on the Original is preserved.

Because the mapping and developing function of the machine components is separate from the image transfer function, the intensity of the lamp 3o and the speed with which moves sheet 14 in the reverse direction, different from the intensity and speed for imaging and developing be. This depends on what results the machine is designed for.

Instead of transferring the developed image to a copy sheet, the developed image can also be transferred to the heat-sensitive one Sheet 14 are fixed, the heat-sensitive sheet then itself being the copy. In this case the Cylinder 18 during the fixing or melting process comes into contact with toner particles, comprise a material to which the fused toner particles do not adhere. Further A stack of separator sheets could be placed on the paper tray 56 and along the lamp 3o in contact with the developed

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Image are guided. In this case the release sheet would have to be off consist of a material to which the toner particles do not adhere.

The control system and its components for operating the described Machine are known and are available to those skilled in the relevant Area readily available; for this reason these facilities are not shown.

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Claims (6)

1 **> -. Claims 1. A method for producing a copy of an original image, characterized in that that you have a sheet with the original illustration and a heat-sensitive one Feeds the sheet into a machine and the two sheets in sandwich-like stacking through a Sends radiation path from a radiation source so that a thermal image is created on the heat sensitive sheet, separates the sheet with the original image from the heat-sensitive sheet, the heat-sensitive sheet in one direction moved through a development station and the image on it is developed, the direction of movement of the thermosensitive sheet reverses with its trailing edge being the leading edge as it moves in one direction while moving in the reverse direction, the thermosensitive sheet moves back through the same radiation path from the same radiation source leads to the heating of the developed image, with the heat-sensitive sheet in the radiation path reaches the same point that it left during the imaging process, and the heat-sensitive Dispenses sheet from the machine. 2. The method according to claim 1, characterized in that the heat-sensitive sheet is in contact With a copy sheet, when the developed image is heated, the developed image holds onto the copy sheet while this heat transfers and fixes and releases the copy sheet from the machine with the heat-sensitive sheet. 3. The method according to claim 1, characterized in that the movement path of the heat-sensitive 509828/0463 - 13 - In the opposite direction is the same as in the one
Direction* 4. The method according to claim 1, characterized in that ■ that the heat-sensitive sheet first in the reverse direction back through the development station
is moved. 5. The method according to claim 3, characterized in that the separation of the copy sheet from the
heat sensitive sheet is made when the sheets die
Left the machine. 6. The method according to claim 1, characterized in that the developed image on the heat-sensitive Sheet is fixed while it is being heated. 509828/0463